Rivoreo Source Code Repositories
src.rivoreo.one / systemd-stable / rivoreo-fork / . / src / test / test-hashmap-plain.c
blob: 1bd5c02f8789a9547d16727d7e7996728e6c7ad4 [file] [log] [blame] [raw]
/***
This file is part of systemd
Copyright 2013 Daniel Buch
systemd is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
systemd is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with systemd; If not, see <http://www.gnu.org/licenses/>.
***/
#include "alloc-util.h"
#include "hashmap.h"
#include "string-util.h"
#include "strv.h"
#include "util.h"
void test_hashmap_funcs(void);
static void test_hashmap_replace(void) {
Hashmap *m;
char *val1, *val2, *val3, *val4, *val5, *r;
m = hashmap_new(&string_hash_ops);
val1 = strdup("val1");
assert_se(val1);
val2 = strdup("val2");
assert_se(val2);
val3 = strdup("val3");
assert_se(val3);
val4 = strdup("val4");
assert_se(val4);
val5 = strdup("val5");
assert_se(val5);
hashmap_put(m, "key 1", val1);
hashmap_put(m, "key 2", val2);
hashmap_put(m, "key 3", val3);
hashmap_put(m, "key 4", val4);
hashmap_replace(m, "key 3", val1);
r = hashmap_get(m, "key 3");
assert_se(streq(r, "val1"));
hashmap_replace(m, "key 5", val5);
r = hashmap_get(m, "key 5");
assert_se(streq(r, "val5"));
free(val1);
free(val2);
free(val3);
free(val4);
free(val5);
hashmap_free(m);
}
static void test_hashmap_copy(void) {
Hashmap *m, *copy;
char *val1, *val2, *val3, *val4, *r;
val1 = strdup("val1");
assert_se(val1);
val2 = strdup("val2");
assert_se(val2);
val3 = strdup("val3");
assert_se(val3);
val4 = strdup("val4");
assert_se(val4);
m = hashmap_new(&string_hash_ops);
hashmap_put(m, "key 1", val1);
hashmap_put(m, "key 2", val2);
hashmap_put(m, "key 3", val3);
hashmap_put(m, "key 4", val4);
copy = hashmap_copy(m);
r = hashmap_get(copy, "key 1");
assert_se(streq(r, "val1"));
r = hashmap_get(copy, "key 2");
assert_se(streq(r, "val2"));
r = hashmap_get(copy, "key 3");
assert_se(streq(r, "val3"));
r = hashmap_get(copy, "key 4");
assert_se(streq(r, "val4"));
hashmap_free_free(copy);
hashmap_free(m);
}
static void test_hashmap_get_strv(void) {
Hashmap *m;
char **strv;
char *val1, *val2, *val3, *val4;
val1 = strdup("val1");
assert_se(val1);
val2 = strdup("val2");
assert_se(val2);
val3 = strdup("val3");
assert_se(val3);
val4 = strdup("val4");
assert_se(val4);
m = hashmap_new(&string_hash_ops);
hashmap_put(m, "key 1", val1);
hashmap_put(m, "key 2", val2);
hashmap_put(m, "key 3", val3);
hashmap_put(m, "key 4", val4);
strv = hashmap_get_strv(m);
#ifndef ORDERED
strv = strv_sort(strv);
#endif
assert_se(streq(strv[0], "val1"));
assert_se(streq(strv[1], "val2"));
assert_se(streq(strv[2], "val3"));
assert_se(streq(strv[3], "val4"));
strv_free(strv);
hashmap_free(m);
}
static void test_hashmap_move_one(void) {
Hashmap *m, *n;
char *val1, *val2, *val3, *val4, *r;
val1 = strdup("val1");
assert_se(val1);
val2 = strdup("val2");
assert_se(val2);
val3 = strdup("val3");
assert_se(val3);
val4 = strdup("val4");
assert_se(val4);
m = hashmap_new(&string_hash_ops);
n = hashmap_new(&string_hash_ops);
hashmap_put(m, "key 1", val1);
hashmap_put(m, "key 2", val2);
hashmap_put(m, "key 3", val3);
hashmap_put(m, "key 4", val4);
assert_se(hashmap_move_one(n, NULL, "key 3") == -ENOENT);
assert_se(hashmap_move_one(n, m, "key 5") == -ENOENT);
assert_se(hashmap_move_one(n, m, "key 3") == 0);
assert_se(hashmap_move_one(n, m, "key 4") == 0);
r = hashmap_get(n, "key 3");
assert_se(r && streq(r, "val3"));
r = hashmap_get(n, "key 4");
assert_se(r && streq(r, "val4"));
r = hashmap_get(m, "key 3");
assert_se(!r);
assert_se(hashmap_move_one(n, m, "key 3") == -EEXIST);
hashmap_free_free(m);
hashmap_free_free(n);
}
static void test_hashmap_move(void) {
Hashmap *m, *n;
char *val1, *val2, *val3, *val4, *r;
val1 = strdup("val1");
assert_se(val1);
val2 = strdup("val2");
assert_se(val2);
val3 = strdup("val3");
assert_se(val3);
val4 = strdup("val4");
assert_se(val4);
m = hashmap_new(&string_hash_ops);
n = hashmap_new(&string_hash_ops);
hashmap_put(n, "key 1", strdup(val1));
hashmap_put(m, "key 1", val1);
hashmap_put(m, "key 2", val2);
hashmap_put(m, "key 3", val3);
hashmap_put(m, "key 4", val4);
assert_se(hashmap_move(n, NULL) == 0);
assert_se(hashmap_move(n, m) == 0);
assert_se(hashmap_size(m) == 1);
r = hashmap_get(m, "key 1");
assert_se(r && streq(r, "val1"));
r = hashmap_get(n, "key 1");
assert_se(r && streq(r, "val1"));
r = hashmap_get(n, "key 2");
assert_se(r && streq(r, "val2"));
r = hashmap_get(n, "key 3");
assert_se(r && streq(r, "val3"));
r = hashmap_get(n, "key 4");
assert_se(r && streq(r, "val4"));
hashmap_free_free(m);
hashmap_free_free(n);
}
static void test_hashmap_update(void) {
Hashmap *m;
char *val1, *val2, *r;
m = hashmap_new(&string_hash_ops);
val1 = strdup("old_value");
assert_se(val1);
val2 = strdup("new_value");
assert_se(val2);
hashmap_put(m, "key 1", val1);
r = hashmap_get(m, "key 1");
assert_se(streq(r, "old_value"));
assert_se(hashmap_update(m, "key 2", val2) == -ENOENT);
r = hashmap_get(m, "key 1");
assert_se(streq(r, "old_value"));
assert_se(hashmap_update(m, "key 1", val2) == 0);
r = hashmap_get(m, "key 1");
assert_se(streq(r, "new_value"));
free(val1);
free(val2);
hashmap_free(m);
}
static void test_hashmap_put(void) {
Hashmap *m = NULL;
int valid_hashmap_put;
void *val1 = (void*) "val 1";
void *val2 = (void*) "val 2";
_cleanup_free_ char* key1 = NULL;
assert_se(hashmap_ensure_allocated(&m, &string_hash_ops) >= 0);
assert_se(m);
valid_hashmap_put = hashmap_put(m, "key 1", val1);
assert_se(valid_hashmap_put == 1);
assert_se(hashmap_put(m, "key 1", val1) == 0);
assert_se(hashmap_put(m, "key 1", val2) == -EEXIST);
key1 = strdup("key 1");
assert_se(hashmap_put(m, key1, val1) == 0);
assert_se(hashmap_put(m, key1, val2) == -EEXIST);
hashmap_free(m);
}
static void test_hashmap_remove(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
char *r;
r = hashmap_remove(NULL, "key 1");
assert_se(r == NULL);
m = hashmap_new(&string_hash_ops);
assert_se(m);
r = hashmap_remove(m, "no such key");
assert_se(r == NULL);
hashmap_put(m, "key 1", (void*) "val 1");
hashmap_put(m, "key 2", (void*) "val 2");
r = hashmap_remove(m, "key 1");
assert_se(streq(r, "val 1"));
r = hashmap_get(m, "key 2");
assert_se(streq(r, "val 2"));
assert_se(!hashmap_get(m, "key 1"));
}
static void test_hashmap_remove2(void) {
_cleanup_hashmap_free_free_free_ Hashmap *m = NULL;
char key1[] = "key 1";
char key2[] = "key 2";
char val1[] = "val 1";
char val2[] = "val 2";
void *r, *r2;
r = hashmap_remove2(NULL, "key 1", &r2);
assert_se(r == NULL);
m = hashmap_new(&string_hash_ops);
assert_se(m);
r = hashmap_remove2(m, "no such key", &r2);
assert_se(r == NULL);
hashmap_put(m, strdup(key1), strdup(val1));
hashmap_put(m, strdup(key2), strdup(val2));
r = hashmap_remove2(m, key1, &r2);
assert_se(streq(r, val1));
assert_se(streq(r2, key1));
free(r);
free(r2);
r = hashmap_get(m, key2);
assert_se(streq(r, val2));
assert_se(!hashmap_get(m, key1));
}
static void test_hashmap_remove_value(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
char *r;
char val1[] = "val 1";
char val2[] = "val 2";
r = hashmap_remove_value(NULL, "key 1", val1);
assert_se(r == NULL);
m = hashmap_new(&string_hash_ops);
assert_se(m);
r = hashmap_remove_value(m, "key 1", val1);
assert_se(r == NULL);
hashmap_put(m, "key 1", val1);
hashmap_put(m, "key 2", val2);
r = hashmap_remove_value(m, "key 1", val1);
assert_se(streq(r, "val 1"));
r = hashmap_get(m, "key 2");
assert_se(streq(r, "val 2"));
assert_se(!hashmap_get(m, "key 1"));
r = hashmap_remove_value(m, "key 2", val1);
assert_se(r == NULL);
r = hashmap_get(m, "key 2");
assert_se(streq(r, "val 2"));
assert_se(!hashmap_get(m, "key 1"));
}
static void test_hashmap_remove_and_put(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
int valid;
char *r;
m = hashmap_new(&string_hash_ops);
assert_se(m);
valid = hashmap_remove_and_put(m, "invalid key", "new key", NULL);
assert_se(valid == -ENOENT);
valid = hashmap_put(m, "key 1", (void*) (const char *) "val 1");
assert_se(valid == 1);
valid = hashmap_remove_and_put(NULL, "key 1", "key 2", (void*) (const char *) "val 2");
assert_se(valid == -ENOENT);
valid = hashmap_remove_and_put(m, "key 1", "key 2", (void*) (const char *) "val 2");
assert_se(valid == 0);
r = hashmap_get(m, "key 2");
assert_se(streq(r, "val 2"));
assert_se(!hashmap_get(m, "key 1"));
valid = hashmap_put(m, "key 3", (void*) (const char *) "val 3");
assert_se(valid == 1);
valid = hashmap_remove_and_put(m, "key 3", "key 2", (void*) (const char *) "val 2");
assert_se(valid == -EEXIST);
}
static void test_hashmap_remove_and_replace(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
int valid;
void *key1 = UINT_TO_PTR(1);
void *key2 = UINT_TO_PTR(2);
void *key3 = UINT_TO_PTR(3);
void *r;
int i, j;
m = hashmap_new(&trivial_hash_ops);
assert_se(m);
valid = hashmap_remove_and_replace(m, key1, key2, NULL);
assert_se(valid == -ENOENT);
valid = hashmap_put(m, key1, key1);
assert_se(valid == 1);
valid = hashmap_remove_and_replace(NULL, key1, key2, key2);
assert_se(valid == -ENOENT);
valid = hashmap_remove_and_replace(m, key1, key2, key2);
assert_se(valid == 0);
r = hashmap_get(m, key2);
assert_se(r == key2);
assert_se(!hashmap_get(m, key1));
valid = hashmap_put(m, key3, key3);
assert_se(valid == 1);
valid = hashmap_remove_and_replace(m, key3, key2, key2);
assert_se(valid == 0);
r = hashmap_get(m, key2);
assert_se(r == key2);
assert_se(!hashmap_get(m, key3));
/* Repeat this test several times to increase the chance of hitting
* the less likely case in hashmap_remove_and_replace where it
* compensates for the backward shift. */
for (i = 0; i < 20; i++) {
hashmap_clear(m);
for (j = 1; j < 7; j++)
hashmap_put(m, UINT_TO_PTR(10*i + j), UINT_TO_PTR(10*i + j));
valid = hashmap_remove_and_replace(m, UINT_TO_PTR(10*i + 1),
UINT_TO_PTR(10*i + 2),
UINT_TO_PTR(10*i + 2));
assert_se(valid == 0);
assert_se(!hashmap_get(m, UINT_TO_PTR(10*i + 1)));
for (j = 2; j < 7; j++) {
r = hashmap_get(m, UINT_TO_PTR(10*i + j));
assert_se(r == UINT_TO_PTR(10*i + j));
}
}
}
static void test_hashmap_ensure_allocated(void) {
Hashmap *m;
int valid_hashmap;
m = hashmap_new(&string_hash_ops);
valid_hashmap = hashmap_ensure_allocated(&m, &string_hash_ops);
assert_se(valid_hashmap == 0);
assert_se(m);
hashmap_free(m);
}
static void test_hashmap_foreach_key(void) {
Hashmap *m;
Iterator i;
bool key_found[] = { false, false, false, false };
const char *s;
const char *key;
static const char key_table[] =
"key 1\0"
"key 2\0"
"key 3\0"
"key 4\0";
m = hashmap_new(&string_hash_ops);
NULSTR_FOREACH(key, key_table)
hashmap_put(m, key, (void*) (const char*) "my dummy val");
HASHMAP_FOREACH_KEY(s, key, m, i) {
assert(s);
if (!key_found[0] && streq(key, "key 1"))
key_found[0] = true;
else if (!key_found[1] && streq(key, "key 2"))
key_found[1] = true;
else if (!key_found[2] && streq(key, "key 3"))
key_found[2] = true;
else if (!key_found[3] && streq(key, "fail"))
key_found[3] = true;
}
assert_se(m);
assert_se(key_found[0] && key_found[1] && key_found[2] && !key_found[3]);
hashmap_free(m);
}
static void test_hashmap_foreach(void) {
Hashmap *m;
Iterator i;
bool value_found[] = { false, false, false, false };
char *val1, *val2, *val3, *val4, *s;
unsigned count;
val1 = strdup("my val1");
assert_se(val1);
val2 = strdup("my val2");
assert_se(val2);
val3 = strdup("my val3");
assert_se(val3);
val4 = strdup("my val4");
assert_se(val4);
m = NULL;
count = 0;
HASHMAP_FOREACH(s, m, i)
count++;
assert_se(count == 0);
m = hashmap_new(&string_hash_ops);
count = 0;
HASHMAP_FOREACH(s, m, i)
count++;
assert_se(count == 0);
hashmap_put(m, "Key 1", val1);
hashmap_put(m, "Key 2", val2);
hashmap_put(m, "Key 3", val3);
hashmap_put(m, "Key 4", val4);
HASHMAP_FOREACH(s, m, i) {
if (!value_found[0] && streq(s, val1))
value_found[0] = true;
else if (!value_found[1] && streq(s, val2))
value_found[1] = true;
else if (!value_found[2] && streq(s, val3))
value_found[2] = true;
else if (!value_found[3] && streq(s, val4))
value_found[3] = true;
}
assert_se(m);
assert_se(value_found[0] && value_found[1] && value_found[2] && value_found[3]);
hashmap_free_free(m);
}
static void test_hashmap_merge(void) {
Hashmap *m;
Hashmap *n;
char *val1, *val2, *val3, *val4, *r;
val1 = strdup("my val1");
assert_se(val1);
val2 = strdup("my val2");
assert_se(val2);
val3 = strdup("my val3");
assert_se(val3);
val4 = strdup("my val4");
assert_se(val4);
n = hashmap_new(&string_hash_ops);
m = hashmap_new(&string_hash_ops);
hashmap_put(m, "Key 1", val1);
hashmap_put(m, "Key 2", val2);
hashmap_put(n, "Key 3", val3);
hashmap_put(n, "Key 4", val4);
assert_se(hashmap_merge(m, n) == 0);
r = hashmap_get(m, "Key 3");
assert_se(r && streq(r, "my val3"));
r = hashmap_get(m, "Key 4");
assert_se(r && streq(r, "my val4"));
assert_se(n);
assert_se(m);
hashmap_free(n);
hashmap_free_free(m);
}
static void test_hashmap_contains(void) {
Hashmap *m;
char *val1;
val1 = strdup("my val");
assert_se(val1);
m = hashmap_new(&string_hash_ops);
assert_se(!hashmap_contains(m, "Key 1"));
hashmap_put(m, "Key 1", val1);
assert_se(hashmap_contains(m, "Key 1"));
assert_se(!hashmap_contains(m, "Key 2"));
assert_se(!hashmap_contains(NULL, "Key 1"));
assert_se(m);
hashmap_free_free(m);
}
static void test_hashmap_isempty(void) {
Hashmap *m;
char *val1;
val1 = strdup("my val");
assert_se(val1);
m = hashmap_new(&string_hash_ops);
assert_se(hashmap_isempty(m));
hashmap_put(m, "Key 1", val1);
assert_se(!hashmap_isempty(m));
assert_se(m);
hashmap_free_free(m);
}
static void test_hashmap_size(void) {
Hashmap *m;
char *val1, *val2, *val3, *val4;
val1 = strdup("my val");
assert_se(val1);
val2 = strdup("my val");
assert_se(val2);
val3 = strdup("my val");
assert_se(val3);
val4 = strdup("my val");
assert_se(val4);
assert_se(hashmap_size(NULL) == 0);
assert_se(hashmap_buckets(NULL) == 0);
m = hashmap_new(&string_hash_ops);
hashmap_put(m, "Key 1", val1);
hashmap_put(m, "Key 2", val2);
hashmap_put(m, "Key 3", val3);
hashmap_put(m, "Key 4", val4);
assert_se(m);
assert_se(hashmap_size(m) == 4);
assert_se(hashmap_buckets(m) >= 4);
hashmap_free_free(m);
}
static void test_hashmap_get(void) {
Hashmap *m;
char *r;
char *val;
val = strdup("my val");
assert_se(val);
r = hashmap_get(NULL, "Key 1");
assert_se(r == NULL);
m = hashmap_new(&string_hash_ops);
hashmap_put(m, "Key 1", val);
r = hashmap_get(m, "Key 1");
assert_se(streq(r, val));
r = hashmap_get(m, "no such key");
assert_se(r == NULL);
assert_se(m);
hashmap_free_free(m);
}
static void test_hashmap_get2(void) {
Hashmap *m;
char *r;
char *val;
char key_orig[] = "Key 1";
void *key_copy;
val = strdup("my val");
assert_se(val);
key_copy = strdup(key_orig);
assert_se(key_copy);
r = hashmap_get2(NULL, key_orig, &key_copy);
assert_se(r == NULL);
m = hashmap_new(&string_hash_ops);
hashmap_put(m, key_copy, val);
key_copy = NULL;
r = hashmap_get2(m, key_orig, &key_copy);
assert_se(streq(r, val));
assert_se(key_orig != key_copy);
assert_se(streq(key_orig, key_copy));
r = hashmap_get2(m, "no such key", NULL);
assert_se(r == NULL);
assert_se(m);
hashmap_free_free_free(m);
}
static void crippled_hashmap_func(const void *p, struct siphash *state) {
return trivial_hash_func(INT_TO_PTR(PTR_TO_INT(p) & 0xff), state);
}
static const struct hash_ops crippled_hashmap_ops = {
.hash = crippled_hashmap_func,
.compare = trivial_compare_func,
};
static void test_hashmap_many(void) {
Hashmap *h;
unsigned i, j;
void *v, *k;
static const struct {
const struct hash_ops *ops;
unsigned n_entries;
} tests[] = {
{ .ops = NULL, .n_entries = 1 << 20 },
{ .ops = &crippled_hashmap_ops, .n_entries = 1 << 14 },
};
for (j = 0; j < ELEMENTSOF(tests); j++) {
assert_se(h = hashmap_new(tests[j].ops));
for (i = 1; i < tests[j].n_entries*3; i+=3) {
assert_se(hashmap_put(h, UINT_TO_PTR(i), UINT_TO_PTR(i)) >= 0);
assert_se(PTR_TO_UINT(hashmap_get(h, UINT_TO_PTR(i))) == i);
}
for (i = 1; i < tests[j].n_entries*3; i++)
assert_se(hashmap_contains(h, UINT_TO_PTR(i)) == (i % 3 == 1));
log_info("%u <= %u * 0.8 = %g", hashmap_size(h), hashmap_buckets(h), hashmap_buckets(h) * 0.8);
assert_se(hashmap_size(h) <= hashmap_buckets(h) * 0.8);
assert_se(hashmap_size(h) == tests[j].n_entries);
while (!hashmap_isempty(h)) {
k = hashmap_first_key(h);
v = hashmap_remove(h, k);
assert_se(v == k);
}
hashmap_free(h);
}
}
static void test_hashmap_first(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
m = hashmap_new(&string_hash_ops);
assert_se(m);
assert_se(!hashmap_first(m));
assert_se(hashmap_put(m, "key 1", (void*) "val 1") == 1);
assert_se(streq(hashmap_first(m), "val 1"));
assert_se(hashmap_put(m, "key 2", (void*) "val 2") == 1);
#ifdef ORDERED
assert_se(streq(hashmap_first(m), "val 1"));
assert_se(hashmap_remove(m, "key 1"));
assert_se(streq(hashmap_first(m), "val 2"));
#endif
}
static void test_hashmap_first_key(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
m = hashmap_new(&string_hash_ops);
assert_se(m);
assert_se(!hashmap_first_key(m));
assert_se(hashmap_put(m, "key 1", NULL) == 1);
assert_se(streq(hashmap_first_key(m), "key 1"));
assert_se(hashmap_put(m, "key 2", NULL) == 1);
#ifdef ORDERED
assert_se(streq(hashmap_first_key(m), "key 1"));
assert_se(hashmap_remove(m, "key 1") == NULL);
assert_se(streq(hashmap_first_key(m), "key 2"));
#endif
}
static void test_hashmap_steal_first_key(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
m = hashmap_new(&string_hash_ops);
assert_se(m);
assert_se(!hashmap_steal_first_key(m));
assert_se(hashmap_put(m, "key 1", NULL) == 1);
assert_se(streq(hashmap_steal_first_key(m), "key 1"));
assert_se(hashmap_isempty(m));
}
static void test_hashmap_steal_first(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
int seen[3] = {};
char *val;
m = hashmap_new(&string_hash_ops);
assert_se(m);
assert_se(hashmap_put(m, "key 1", (void*) "1") == 1);
assert_se(hashmap_put(m, "key 2", (void*) "22") == 1);
assert_se(hashmap_put(m, "key 3", (void*) "333") == 1);
while ((val = hashmap_steal_first(m)))
seen[strlen(val) - 1]++;
assert_se(seen[0] == 1 && seen[1] == 1 && seen[2] == 1);
assert_se(hashmap_isempty(m));
}
static void test_hashmap_clear_free_free(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
m = hashmap_new(&string_hash_ops);
assert_se(m);
assert_se(hashmap_put(m, strdup("key 1"), NULL) == 1);
assert_se(hashmap_put(m, strdup("key 2"), NULL) == 1);
assert_se(hashmap_put(m, strdup("key 3"), NULL) == 1);
hashmap_clear_free_free(m);
assert_se(hashmap_isempty(m));
}
static void test_hashmap_reserve(void) {
_cleanup_hashmap_free_ Hashmap *m = NULL;
m = hashmap_new(&string_hash_ops);
assert_se(hashmap_reserve(m, 1) == 0);
assert_se(hashmap_buckets(m) < 1000);
assert_se(hashmap_reserve(m, 1000) == 0);
assert_se(hashmap_buckets(m) >= 1000);
assert_se(hashmap_isempty(m));
assert_se(hashmap_put(m, "key 1", (void*) "val 1") == 1);
assert_se(hashmap_reserve(m, UINT_MAX) == -ENOMEM);
assert_se(hashmap_reserve(m, UINT_MAX - 1) == -ENOMEM);
}
void test_hashmap_funcs(void) {
test_hashmap_copy();
test_hashmap_get_strv();
test_hashmap_move_one();
test_hashmap_move();
test_hashmap_replace();
test_hashmap_update();
test_hashmap_put();
test_hashmap_remove();
test_hashmap_remove2();
test_hashmap_remove_value();
test_hashmap_remove_and_put();
test_hashmap_remove_and_replace();
test_hashmap_ensure_allocated();
test_hashmap_foreach();
test_hashmap_foreach_key();
test_hashmap_contains();
test_hashmap_merge();
test_hashmap_isempty();
test_hashmap_get();
test_hashmap_get2();
test_hashmap_size();
test_hashmap_many();
test_hashmap_first();
test_hashmap_first_key();
test_hashmap_steal_first_key();
test_hashmap_steal_first();
test_hashmap_clear_free_free();
test_hashmap_reserve();
}